A Science teacher by trade, I've also been known to be found teaching Maths and PE! However, strange as it may seem, my real love is designing resources that can be used by other teachers to maximise the experience of the students. I am constantly thinking of new ways to engage a student with a topic and try to implement that in the design of the lessons.
A Science teacher by trade, I've also been known to be found teaching Maths and PE! However, strange as it may seem, my real love is designing resources that can be used by other teachers to maximise the experience of the students. I am constantly thinking of new ways to engage a student with a topic and try to implement that in the design of the lessons.
This bundle of 19 lessons covers the majority of the content in Topic C2 (Elements, compounds and mixtures) of the OCR Gateway A GCSE Chemistry specification. The topics covered within these lessons include:
Relative formula mass
Empirical formula
Pure and impure substances
Filtration and crystallisation
Distillation
Chromatography
Metals and non metals
Electronic structure
Forming ions
Ionic compounds
Simple molecules
Giant covalent structures
Polymer molecules
Metallic bonding
Allotropes of carbon
Graphene and the fullerenes
Changing state
Nanoparticles
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This bundle of 6 lessons covers the majority of the content in the sub-topic C5.1 (Monitoring chemical reactions) of the OCR Gateway A GCSE Chemistry specification. The topics covered within these lessons include:
Theoretical yield
Percentage yield
Atom economy
Concentration of solution
Titrations
Titration calculations
Gas calculations
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding
This is an engaging and informative lesson that looks at the properties of water and challenges students to be able to explain how these properties are related to the numerous functions of this biological molecule. This lesson focuses on the link between properties and functions which is the area where students commonly struggle.
A range of tasks and activities, including a quick competition are used to introduce the different properties and the key terms and then time is taken to look at how this property enables water to be used for a range of functions. Students will learn that water has both a high specific heat capacity and a high latent heat of vaporisation and be able to explain why this is important. Water is a crucial solvent which enables it to perform many roles in living organisms and these are explored. Progress checks are written into the lesson at regular intervals so that students can constantly assess their understanding and build on any knowledge that was there from GCSE.
This fully-resourced lesson explores the contributions of chromosome mutations to genetic variation. The engaging PowerPoint and accompanying worksheets have been designed and written to cover the part of point 6.1.2 (a) of the OCR A-level Biology A specification which states that students should be able to demonstrate and apply their knowledge and understanding of the contribution of genetic factors to phenotypic variation
Over the course of the lesson, students will encounter a number of chromosome mutations and see the conditions which they cause. Time is taken to look at non-disjunction and how this can result in Down, Turner’s and Klinefelter’s syndromes. Students are guided through a description of the formation of gametes and zygotes with abnormal numbers of chromosomes before being challenged to describe the formation of a zygote with Turner’s syndrome. Moving forwards, translocation and polyploidy are also discussed. Progress checks are written into the lesson at regular intervals, that not only check the learning from this lesson but also from related topics (such as meiosis) and this enables the students to constantly assess their understanding.
This bundle of 8 lessons covers the majority of the content in Topic B3 (Infection and response) of the AQA GCSE Biology specification. The topics covered within these lessons include:
Communicable diseases
Viral diseases
Bacterial diseases
Fungal diseases
Protist diseases
Human defence systems
Preventing disease by vaccinations
Antibiotics
Discovery and development of drugs
Producing monoclonal antibodies
Uses of monoclonal antibodies
Plant disease
Plant defence responses
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This is an informative lesson that builds on the knowledge that students gained at GCSE on the topic of inheritance to enable them to carry out genetic crosses for the inheritance of a single gene at A-level. The start of the lesson focuses on the terminology that is associated with this topic which has to be recognised and understood if students are going to be able to begin a cross. Time is taken to go over key points such as the genotypes and working out the different possible gametes that would be produced by meiosis. Students can save time by only showing the different gametes so assistance is given on this. As can be seen from the cover image, a step by step guide is used to go through a number of examples so that students can visualise how to set out their diagrams in order to maximise the marks gained. There are progress checks written into the lesson throughout so that assessment is constant.
This lesson can be taught alongside another upload called “understanding genetic trees”
This bundle of 6 lessons cover all of the content in the sub-topic P2.1 (Motion) of the OCR Gateway A GCSE Combined Science specification. The topics or specification points covered within these lessons include:
Measuring distance and time to calculate speed
Conversion from non S.I. units to S.I. units
Be able to distinguish between scalar and vector quantities
Relate changes in motion to distance-time and velocity-time graphs
Calculate distance travelled from a velocity-time graph
Calculate average speed for non-uniform motion
Apply the equations of motion
Calculating acceleration
Calculating kinetic energy
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This bundle of 9 lessons covers all of the content in the sub-topic P3.2 (Simple circuits) of the OCR Gateway A GCSE Combined Science specification. The topics covered within these lessons include:
The differences between series and parallel circuits
Represent direct current circuits with the common electrical symbols
Current and the dependence on resistance and potential difference
Recall and apply the relationship between I, V and R
The graphs for thermistors and LDRs
Diodes
Net resistance
Current, potential difference and resistance calculations in series and parallel circuits
Power transfer in a circuit
Applying the equations to do with electrical circuits
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This bundle of 7 lessons covers most of the content in sub-topic P4.3 (Radioactivity) of the OCR Gateway A GCSE Combined Science specification. The topics or specification points covered within these lessons include:
Atomic nuclei
Isotopes
Unstable nuclei and emitting particles or gamma rays
Writing balanced equations to represent decay
The concept of the half-life
The different penetrating powers of alpha, beta and gamma
Recall the differences between irradiation and contamination
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This bundle of 8 lessons covers a lot of the content in Topic P6 (Radioactivity) of the OCR Gateway A GCSE Physics specification. The topics covered within these lessons include:
Atoms and Isotopes
The properties of alpha, beta and gamma radiation
Nuclear equations
Half-life
Background radiation
Irradiation and contamination
Nuclear fission
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This is a fully-resourced lesson that looks at the role of transformers in the National Grid, explains why they increase or decrease potential difference and then uses the given equation to calculate potential difference or the number of turns on the primary or secondary coil. This lesson includes an informative lesson presentation (25 slides) and two question worksheets.
The lesson begins by introducing the devices that are transformers and showing the students that there are two types, step-up and step-down. Students will learn that step-up transformers increase the potential difference and step-down transformers decrease the potential difference. Moving forwards, a series of calculations are used to get the students to understand why these changes in potential difference occur. Students are guided through this section so that they are able to complete a summary passage about the roles of these devices. They will then be shown the equation connecting potential difference and number of turns which they do not need to recall but have to apply. Again, a worked example is used to visualise how workings should be set out before students are challenged to answer two sets of questions, the second of which involves the use of a second equation. Progress checks like these are found at regular intervals throughout the lesson so that students can assess their understanding.
This lesson has been written for GCSE students
This is an engaging lesson that looks at the structures and actions of the two parts of the autonomic nervous system (ANS) and shows students where this particular system fits into the whole organisation of the nervous system.
The lesson begins by introducing the students to the idea that motor neurones are not simply somatic motor neurones but will actually be classified as autonomic motor neurones if they innervate the involuntary muscles. A range of tasks, progress checks and quick competitions are used during the lesson to engage the students in this topic and show them how it relates to other topics such as motor neurones and neurotransmitters. Key terminology is used throughout, such as ganglions, so that students can recognise and access the marks if an exam question on this topic arises.
This lesson has been written for A-level students
This bundle of 3 lessons covers the majority of the content in the sub-topic C3.4 (Electrolysis) of the OCR Gateway A GCSE Combined Science specification. The topics and specification points covered within these lessons include:
Recall that metals are formed at the cathode and non-metals are formed at the anode
Predict the products of the electrolysis of ionic compounds in molten state
Describe competing reactions in the electrolysis of aqueous solutions
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This fully-resourced lesson describes how DNA is replicated during interphase of the cell cycle and explains why it is known as semi-conservative replication. Both the detailed PowerPoint and accompanying resources have been designed to cover the details of point 2.1.3 (e) of the OCR A-level Biology A specification and the occurrence of spontaneous mutations is also discussed in the latter part of the lesson.
As detailed in the specification, the focus of this lesson is the role of the enzymes DNA helicase and polymerase and students are also introduced to DNA ligase to enable them to understand how this enzyme functions to join the nucleic acid fragments. Time is taken to explain key details such as the assembly of strands in the 5’-to-3’ direction so that the continuous manner in which the leading strand is synthesised can be compared against that of the lagging strand. The students are constantly challenged to make links to previous topics such as DNA structure, phosphorylated nucleotides and hydrolysis reactions through a range of exam questions and answers are displayed so any misconceptions are quickly addressed. The final part of the lesson focuses on the occurrence of mistakes by DNA polymerase and also on the quantity of DNA in the cell following replication so that future links can be made to the cell cycle (as covered in module 2.1.6)
This bundle of 4 lessons covers the majority of the content in the sub-topic B5.1 (Inheritance) of the OCR Gateway A GCSE Combined Science specification. The topics covered within these lessons include:
Know the meaning of the different genetic terms
Describe that the genome and its interaction with the environment influence the phenotype
Explain the terms haploid and diploid
Explain the role of meiotic division in forming haploid gametes
Explain single gene inheritance
Predict the results of single gene crosses
Describe sex determination in humans using a genetic cross
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This bundle of 11 lessons covers the majority of the content in the sub-topic B6.3 (Monitoring and maintaining health) of the OCR Gateway A GCSE Combined Science specification. The topics and specification points covered within these lessons include:
The relationship between health and disease
Different types of diseases
The interactions between different types of diseases
The spread of communicable diseases
Reducing and preventing the spread of communicable diseases
The role of white blood cells and platelets in defence
The non-specific defence systems
The role of the immune system in the defence against disease
The use of vaccines and medicines in the prevention and treatment of disease
The discovery and development of potential new medicines
Risk factors and non-communicable diseases
Treatments for CVD
Stem cells in medicine
All of these lesson presentations and accompanying resources are detailed and engaging and contain regular progress checks to allow the students to constantly assess their understanding.
This is a concise lesson that looks at Dmitri Mendeleev’s periodic table, the changes and tweaks that he made and compares it against the modern day version of the table. The aim of the lesson is to show students how accurate Mendeleev was with his table, even with those elements that had not yet been discovered. They will work through some examples with eka-silicon and eka-manganese and also compare eka-aluminium’s predictions against those of gallium. Links are made to the development of the atom so students can understand how the atomic number was used by Mendeleev and how it is used now.
Students are set homework to look at the developments that were made by other scientists as homework and this is not covered in this lesson.
This is a fully-resourced lesson that looks at how pressure can be calculated using force and area and then explores how hydraulics are used to transmit a force through a fluid and challenges the students to apply the given equation to calculate the force or area. The lesson includes a lesson presentation (18 slides) and a question worksheet which has been differentiated two ways.
The lesson begins by challenging the students to use an answer to a calculation question to work out the equation that links pressure, force and area. A range of mathematical skills are tested throughout the lesson, such as converting between units and rearranging formula, and then the answers are fully explained so any student who was unable to move through the question can visualise the method. Moving forwards, students will be introduced to a hydraulics system and the equation which they will be given on the sheet in the exam. Students will use the equation to calculate the force or area at the second point of the system. This task has been differentiated so that students who find it difficult are still able to access the learning.
This lesson has been written for GCSE aged students
This bundle of 4 lessons goes through the key details of ionic, covalent and metallic bonding. All of the lessons are detailed and focus on guiding students through the explanations of how the structure of these bonds is related to the properties of the substances. Students are shown how to draw dot and cross diagrams for both ionic and covalent substances and there is a focus on key terminology in all of them, such as delocalised electrons and electrostatic forces